单个光捕获复合体的荧光和光漂白动力学

Fluorescence and photobleaching dynamics of single light-harvesting complexes.

作者信息

Bopp M A, Jia Y, Li L, Cogdell R J, Hochstrasser R M

机构信息

Chemistry Department, University of Pennsylvania, Philadelphia, PA, 19104, USA.

出版信息

Proc Natl Acad Sci U S A. 1997 Sep 30;94(20):10630-5. doi: 10.1073/pnas.94.20.10630.

DOI:10.1073/pnas.94.20.10630

PMID:9380686

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC23428/

Abstract

Single light-harvesting complexes LH-2 from Rhodopseudomonas acidophila were immobilized on various charged surfaces under physiological conditions. Polarized light experiments showed that the complexes were situated on the surface as nearly upright cylinders. Their fluorescence lifetimes and photobleaching properties were obtained by using a confocal fluorescence microscope with picosecond time resolution. Initially all molecules fluoresced with a lifetime of 1 +/- 0.2 ns, similar to the bulk value. The photobleaching of one bacteriochlorophyll molecule from the 18-member assembly caused the fluorescence to switch off completely, because of trapping of the mobile excitations by energy transfer. This process was linear in light intensity. On continued irradiation the fluorescence often reappeared, but all molecules did not show the same behavior. Some LH-2 complexes displayed a variation of their quantum yields that was attributed to photoinduced confinement of the excited states and thereby a diminution of the superradiance. Others showed much shorter lifetimes caused by excitation energy traps that are only approximately 3% efficient. On repeated excitation some molecules entered a noisy state where the fluorescence switched on and off with a correlation time of approximately 0.1 s. About 490 molecules were examined.

摘要

嗜酸性红假单胞菌的单个捕光复合物LH-2在生理条件下固定在各种带电表面上。偏振光实验表明，这些复合物以近乎直立的圆柱体形式位于表面。通过使用具有皮秒时间分辨率的共聚焦荧光显微镜获得了它们的荧光寿命和光漂白特性。最初，所有分子的荧光寿命为1±0.2纳秒，与本体值相似。由于能量转移捕获了移动激发，18个成员组装体中的一个细菌叶绿素分子的光漂白导致荧光完全关闭。这个过程在光强度上是线性的。持续照射时，荧光常常会重新出现，但并非所有分子都表现出相同的行为。一些LH-2复合物显示出量子产率的变化，这归因于激发态的光诱导限制，从而导致超辐射减弱。其他复合物则表现出短得多的寿命，这是由效率仅约为3%的激发能陷阱引起的。反复激发时，一些分子进入噪声状态，荧光以约0.1秒的相关时间开启和关闭。共检测了约490个分子。

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